OCTN1 (SLC22A4) displays two different transport pathways for organic cations or zwitterions

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-12-12 DOI:10.1016/j.bbamem.2023.184263
Lorena Pochini , Francesca Barone , Lara Console , Chiara Brunocilla , Michele Galluccio , Mariafrancesca Scalise , Cesare Indiveri
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Abstract

Background

OCTN1 belongs to the SLC22 family, which includes transporters for cationic, zwitterionic, and anionic substrates. OCTN1 function and role in cells are still poorly understood. Not only cations, such as TEA, but also zwitterions, such as carnitine and ergothioneine, figure among transported molecules.

Methods

In this work, we carried out transport assays measuring [14C]-TEA and [3H]-Carnitine in proteoliposomes reconstituted with the recombinant human OCTN1 in the presence of Na+ or other cations. The homology model of OCTN1 was built using the structure of OCT3 as a template for docking analysis.

Results

TEA and carnitine did not inhibit each other. Moreover, carnitine uptake was not affected by the presence of Na+ and TEBA, whereas TEA was strongly inhibited by both compounds. Computational data revealed that TEA, Na+, and carnitine can interact with E381 in the OCTN1 substrate site. Differently from TEA, in the presence of Na+, carnitine is still able to interact with the binding site via R469.

Conclusions

The lack of mutual inhibition of the two prototype substrates, the different effect of Na+ and TEBA on their transport reaction, together with the computational analysis supports the existence of two transport pathways for cations and zwitterions.

General significance

The results shed new light on the transport mechanisms of OCTN1, helping to get further insights into the structure/function relationships. The described results correlate well with previous and very recent findings on the polyspecificity of the OCT group of transporters belonging to the same family.

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OCTN1(SLC22A4)对有机阳离子或齐聚物有两种不同的转运途径
背景OCTN1 属于 SLC22 家族,该家族包括阳离子、齐瓦离子和阴离子底物的转运体。人们对 OCTN1 在细胞中的功能和作用还知之甚少。在这项工作中,我们进行了转运试验,在 Na+ 或其他阳离子存在的情况下,测量重组人 OCTN1 蛋白脂质体中的 [14C]-TEA 和 [3H]- 肉碱。以 OCT3 的结构为模板建立了 OCTN1 的同源模型,并进行了对接分析。此外,肉碱的吸收不受 Na+ 和 TEBA 存在的影响,而三乙醇胺则受到这两种化合物的强烈抑制。计算数据显示,三乙醇胺、Na+ 和肉碱能与 OCTN1 底物位点上的 E381 相互作用。与 TEA 不同的是,在 Na+ 存在的情况下,肉碱仍能通过 R469 与结合位点相互作用。结论两种原型底物缺乏相互抑制作用,Na+ 和 TEBA 对其转运反应的影响不同,再加上计算分析支持阳离子和齐聚物存在两种转运途径。所述结果与以前和最近关于同属一个家族的 OCT 转运体多特异性的研究结果密切相关。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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